Anchor Integrated Liner and Machine Installation Method

ABSTRACT

It is an object to prevent the occurrence of noise from a hollow of an anchor integrated liner, to facilitate the installation of the anchor integrated liner, and to fix its liner part to its anchor shaft part. 
     An anchor integrated liner  10  includes: an anchor shaft part  12  which is provided with a shaft  16  embeddable in a concrete foundation  110  on which a base plate  120  of a machine  100  is installed and with a screw part  18 ; and a liner part  14  which is provided on an end portion of the anchor shaft part  12  to serve as a jig for installing the machine  100 , which includes a blind hole  20  having an inside screw screwed to the screw part  18 , and which is capable of adjusting an installation position of the machine  100  by having the blind hole  20  screwed to the screw part  18 , wherein the anchor shaft part  12  and the liner part  14  are integrally formed, and wherein a filling hole  26  is provided at least in one place or more of a side surface of the liner part  14 , the filling hole  26  being for filling a filler in a hollow  30  which is made between the blind hole  20  and the screw part  18  at the time of the screw adjustment by the blind hole  20  and the screw part  18.

TECHNICAL FIELD

The present invention relates to an anchor integrated liner and amachine installation method especially for accurate position adjustmentof a base plate of a machine which is to be installed on a base such asa concrete foundation.

BACKGROUND ART

When a large machine is placed on a base plate to be installed on aconcrete foundation, advance position adjustment of the base plate isnecessary. In the conventional position adjustment of the base plate,the horizontal or vertical state is adjusted by the combination of flatliners and taper liners supporting a plurality of places of the baseplate. However, the conventional installation positioning by thecombination of the flat liners and the taper liners has a problem suchas that a long time is required for the work of maintaining accuracy orfor curing mortar fixing the liners.

Therefore, the present inventor invented an anchor integrated liner usedfor installation position adjustment of a base plate, with which even anunskilled worker can very easily install a machine and can make fineadjustment.

[Patent document 1] Japanese Patent No. 3775717

DISCLOSURE OF THE INVENTION Problems to Be Solved by the Invention

In the aforesaid anchor integrated liner, after a blind hole of ananchor shaft part and a screw part of a liner part are screwed to eachother for the position adjustment, a gap, that is, a hollow is made onan upper surface of the screw part in the blind hole. The presence ofthe hollow in the concrete foundation supporting the machine poses aproblem that the concrete foundation vibrates to generate noise when themachine operates. Further, after the installation position is adjustedby adjusting the screwing between the liner part and the anchor shaftpart, it is necessary to weld the screw part of the anchor shaft part inorder to prevent that the liner part rotates to displace theinstallation position.

Therefore, it is an object of the present invention to facilitate theinstallation of an anchor integrated liner and fix its liner part to itsanchor shaft part. It is another object of the present invention toeliminate a hollow formed inside the liner part.

Means for Solving the Problems

In order to achieve the objects stated above, an anchor integrated linerof the present invention includes: an anchor shaft part which isprovided with a shaft embeddable in a concrete foundation on which abase plate of a machine is installed and with a screw part; and a linerpart which is provided on an end portion of the anchor shaft part toserve as a jig for installing the machine, which is provided with ablind hole having an inside screw screwed to the screw part and with asmooth mounting surface for the base plate, and which is capable ofscrew-adjusting an installation position of the machine by having theblind hole screwed to the screw part, wherein the anchor shaft part andthe liner part are integrally formed, and wherein a filling hole isprovided in at least one place or more of a side surface of the linerpart, the filling hole being for filling a filler in a hollow which ismade between the blind hole and the screw part at the time of thescrew-adjustment by the blind hole and the screw part.

Another anchor integrated liner of the present invention includes: ananchor shaft part which is provided with a shaft embeddable in aconcrete foundation on which a base plate of a machine is installed andwith a screw part; and a liner part which is provided on an end portionof the anchor shaft part to serve as a jig for installing the machine,which is provided with a blind hole having an inside screw screwed tothe screw part and with a smooth mounting surface for the base plate,and which is capable of screw-adjusting an installation position of themachine by having the blind hole screwed to the screw part, wherein theanchor shaft part and the liner part are integrally formed, wherein afilling hole is provided in at least one place or more of a side surfaceof the liner part, the filling hole being for filling a filler in ahollow which is made between the blind hole and the screw part at thetime of the screw-adjustment by the blind hole and the screw part, andwherein a center axis of the blind hole and the screw part and a centeraxis of the shaft are eccentric to each other.

Still another anchor integrated liner of the present invention includes:an anchor shaft part which is provided with a shaft embeddable in aconcrete foundation on which a base plate of a machine is installed andwith a screw part; and a liner part which is provided on an end portionof the anchor shaft part to serve as a jig for installing the machine,which is provided with a blind hole having an inside screw screwed tothe screw part and with a smooth mounting surface for the base plate,and which is capable of screw-adjusting an installation position of themachine by having the blind hole screwed to the screw part, wherein theanchor shaft part and the liner part are integrally formed, wherein afilling hole is provided in at least one place or more of a side surfaceof the liner part, the filling hole being for filling a filler in ahollow which is made between the blind hole and the screw part at thetime of the screw-adjustment by the blind hole and the screw part,wherein a coupling member is provided between the screw part and theshaft part in the anchor shaft part, and wherein the number of theshafts attached to the coupling member is at least two or more.

In the above cases, the liner part preferably has a polygonal horizontalcross section. A plate larger than a horizontal cross-sectional area ofthe liner part is preferably attached to a top of the liner part.

A machine installation method of the present invention includes: formingan insertion hole in a part, of a concrete foundation, adjacent to ananchor bolt pressing a base plate of a machine; inserting a shaft of ananchor integrated liner into the insertion hole so as to make apredetermined gap between a lower surface of a screw part of the anchorintegrated liner and an upper surface of the concrete foundation, theanchor integrated liner including: an anchor shaft part which isprovided with the shaft embeddable in the insertion hole and with thescrew part; and a liner part screwed to the screw part and having, on anupper surface, a mounting surface for the machine; horizontally andvertically adjusting the mounting surface; thereafter injecting a fixingmaterial into the gap to form a fixed layer receiving a load in a lineraxial direction; adjusting an installation position by adjustingscrewing movement of the liner part; and installing the machine on anupper surface of the base plate.

EFFECT OF THE INVENTION

According to the present invention as structured above, at least onefilling hole or more are formed for filling the filler into the hollow(gap) which is made between the blind hole of the liner part and thescrew part of the anchor shaft part after the installation position ofthe base plate is adjusted by using the anchor integrated liner.Therefore, after the position of the base plate is adjusted by theanchor integrated liner, the filler is filled into the liner from thefilling hole of the liner part, so that the hollow can be closed up.Consequently, the spread of vibration or noise generated by theoperation of the machine can be prevented. Further, since the hollow inthe blind hole of the liner part is closed up, the blind hole of theliner part and the screw part of the anchor shaft part can be easilyfixed. This eliminates a conventionally needed work of welding andfixing the liner part after the position adjustment by the liner part,and prevents the liner part from being displaced due to the vibrationwhen the machine operates.

The center axis of the blind hole and the screw part and the center axisof the shaft are eccentric to each other so that the shaft can keepclear of a reinforcement of the concrete foundation. Therefore, even ifthe reinforcement of the concrete foundation exists in the anchorinsertion position, the anchor integrated liner can be disposed so as tokeep clear of the reinforcement without cutting the reinforcement.

The coupling member is provided between the screw part and the shaft inthe anchor shaft part and at least two shafts or more are attached tothe coupling member so as to be capable of keeping clear of thereinforcement of the concrete foundation. Consequently, even if thereinforcement of the concrete foundation exists in the anchor insertionposition, the anchor integrated liner can be disposed so as to keepclear of the reinforcement without cutting the reinforcement, and thecenter axis of the liner part can be set at the center of the pluralshafts, and thus the whole anchor can be stably fixed in a well-balancedmanner, which enables accurate adjustment of the base plate.

The liner part is formed to have a cross section in a polygonal shape,for example, a quadrangular shape, a hexagonal shape, an octagonalshape, or the like. This can facilitate a rotation operation of theliner part even when the installation place is narrow.

The plate wider than the cross-sectional area of the liner is attachedon the top of the liner part. When the base plate is placed on the linerpart, a pressure on a pressure receiving surface of the liner part ispreferably smaller in order to lighten a burden to the liner part due tothe load. That is, the contact area between the liner part and the baseplate is preferably larger. Therefore, by making the diameter of theplate attached on the liner part larger than the diameter of the linerpart, it is possible to increase the contact area of the liner partwithout increasing a screw diameter of the liner part.

According to the machine installation method of the present invention,the shaft is inserted so as to make the predetermined gap between thelower surface of the screw part of the anchor shaft part and the uppersurface of the concrete foundation, the mounting surface of the linerpart is horizontally or vertically adjusted by a hammer lightly strikingit, and thereafter the fixing material which cures in a short time isinjected into the gap, thereby forming the fixed layer receiving theload in the liner axial direction. Therefore, the load in the lineraxial direction can be received with a surface area of the fixed layerformed around the axis of the anchor shaft part, which makes it possibleto increase the strength of the whole anchor shaft part even if itsshaft diameter is small. Further, the curing time of the fixing materialcan be shorter than the curing time of mortar put on the concretefoundation in the conventional horizontal adjustment using a flat liner,and thus it is possible to greatly shorten the time for the installationwork of a machine.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side view of an anchor integrated liner according to anembodiment;

FIG. 2 is a view seen in the direction of the A-A arrow in FIG. 1;

FIG. 3 is a cross-sectional view of the anchor integrated lineraccording to the embodiment;

FIG. 4 is a view of the construction of the anchor integrated lineraccording to the embodiment;

FIG. 5 are explanatory views of a construction method of the anchorintegrated liner according to the embodiment;

FIG. 6 is a side view of a modification example 1 of the anchorintegrated liner according to the embodiment;

FIG. 7 is a view seen in the direction of the B-B arrow in FIG. 6;

FIG. 8 is a side view of a modification example 2 of the anchorintegrated liner according to the embodiment;

FIG. 9 is a view seen in the direction of the C-C arrow in FIG. 8;

FIG. 10 is a cross-sectional view of the modification example 2 of theanchor integrated liner according to the embodiment;

FIG. 11 is a side view of a modification example 3 of the anchorintegrated liner according to the embodiment;

FIG. 12 is a view seen in the direction of the D-D arrow in FIG. 11;

FIG. 13 is a cross-sectional view of the modification example 3 of theanchor integrated liner according to the embodiment;

FIG. 14 is a side view of a modification example 4 of the anchorintegrated liner according to the embodiment;

FIG. 15 is a view seen in the direction of the E-E arrow in FIG. 14;

FIG. 16 is a side view of the modification example 5 of the anchorintegrated liner according to the embodiment;

FIG. 17 is a view seen in the direction of the F-F arrow in FIG. 16;

FIG. 18 is a side view of a liner part according to the modificationexample 5;

FIG. 19 is a side view of a modification example 6 of the anchorintegrated liner according to the embodiment; and

FIG. 20 is a side view of another modification example 6 of the anchorintegrated liner according to the embodiment.

EXPLANATION OF CODES

10 . . . anchor integrated liner, 12 . . . anchor shaft part, 14 . . .liner part, 16 . . . shaft, 18 . . . screw part, 20 . . . blind hole, 22. . . mounting surface, 24 . . . projection, 26 . . . filling hole, 28 .. . female screw type of metal expansion anchor, 30 . . . hollow, 31 . .. fixed layer, 32 . . . recession, 34 . . . coupling member, 36 . . .plate, 100 . . . machine, 110 . . . concrete foundation, 120 . . . baseplate, 130 . . . anchor bolt

BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, an embodiment of an anchor integrated liner of the presentinvention will be described in detail with reference to the accompanyingdrawings. FIGS. 1 to 3 are explanatory views of the anchor integratedliner according to the embodiment. FIG. 1 shows a side view of theanchor integrated liner. FIG. 2 is a view seen in the direction of thearrow A-A in FIG. 1. FIG. 3 shows a cross-sectional view of the anchorintegrated liner. FIG. 4 is a view of the construction of the anchorintegrated liner according to the embodiment. As shown in the drawings,the anchor integrated liners 10 are attached between a concretefoundation 110 on which a machine 100 such as an engine is installed anda base plate 120 on which the machine 100 is placed. Further, the pluralanchor integrated liners 10 are placed on both sides of the vicinity ofinstallation positions of anchor bolts 130 fixing the machine 100. Here,the anchor bolts 130 support the base plate 120 from an upper surfacethereof and the anchor integrated liners 10 support the base plate 120from under, and thus the anchor bolts 130 and the anchor integratedliners 10 are disposed so as to sandwich the base plate.

As shown in FIGS. 1 to 3, each of the anchor integrated liners 10 has ananchor shaft part 12 and a liner part 14 as its basic structure.

The anchor shaft part 12 is provided with a shaft 16 inserted in aninsertion hole formed in the concrete foundation and with a screw part18 projecting from an upper surface of the concrete foundation. Forexample, the whole surface of the shaft 16 is thread-milled and theshaft is attached by being screwed to a female screw which is insertedin advance in the insertion hole of the concrete foundation. The screwpart 18 is larger in diameter than the shaft 16.

As shown in FIG. 2, the liner part 14 has a circular horizontal crosssection, and in its lower surface, a blind hole 20 screwed to the screwpart 18 of the anchor shaft part 12 is opened. On an upper surface ofthe liner part 14, a mounting surface 22 smoothly finished for having alater-described base plate placed thereon is formed. Further, on acylinder side surface of the liner part 14, projections 24 are formed ina crosswise direction of the horizontal cross section. In thisembodiment, the four projections 24 are formed. Further, on the cylinderside surface of the liner part 14, two filling holes 26 for the fillerare formed between the projections 24 a, 24 d, and between 24 b and 24 crespectively. The filling holes 26 a, 26 b penetrate from the cylinderside surface of the liner part 14 toward the blind hole 20 in the linerpart 14.

Hereinafter, a description will be given of a method of installing amachine by using the anchor integrated liner 10 as structured above. Asan example, this embodiment will describe a case of a centering work ofa machine 100 such as an engine connected to a speed reducer. FIG. 5 areexplanatory views of a construction method of the anchor integratedliner according to the embodiment. First, as shown in (1), in an uppersurface of the concrete foundation 110 which is to be an installationplace of the plural anchor integrated liners 10 supporting the concretefoundation, insertion holes are formed on both sides of each of theanchor bolts. Next, as shown in (2), a female screw type 28 of a metalexpansion anchor which is to be screwed to the female thread formed onthe shaft 16 of the anchor shaft part 12 is inserted in each of theopened insertion holes. When the female screw type 28 of the metalexpansion anchor is inserted up to a bottom of the insertion hole, a tipof the female screw expands due to a wedge on a lower end of the femalescrew, so that the female screw type 28 of the metal expansion anchor isfixed to an inner wall of the insertion hole. Then, as shown in (3), theanchor integrated liner 10 is inserted in the insertion hole, with theshaft 16 of the anchor shaft part 12 of the anchor integrated liner 10being screwed to the female screw type 28 of the metal expansion anchor,and with a predetermined gap t being set between a lower surface of thescrew part of the anchor shaft part 12 and the upper surface of theconcrete foundation. This gap t is preferably set to, for example, 5 mmto 20 mm. Then, as shown in (4), the base plate 120 whose surface incontact with the liner part is smoothly finished is placed on the smoothmounting surface of the liner part 14, and thereafter, the liner part islightly struck by a hammer so that the base plate 120 becomeshorizontal, thereby making the fine adjustment by using a spirit levelor the like. After the base plate 120 is kept horizontal, the fixingmaterial is injected into the predetermined gap t between the lowersurface of the screw part of the anchor shaft part 12 and the uppersurface of the concrete foundation. As the fixing material, it ispreferable to use a resin material which cures in a short time, forexample, which cures in several minutes to several ten minutes, mortalwith compressive strength, or the like. Consequently, the anchor shaftpart 12 is fixed on the concrete foundation and the fixed layer 31 isformed. After the anchor shaft part 12 is fixed, the position of thebase plate is adjusted by the liner part 14 screwed to the screw part 18of the anchor shaft part 12. The anchor bolts are temporarily tightenedwhile a centering standard of the engine and the speed reducer isadjusted and the base plate is positioned by the rotation of the linerpart 14. At this time, in the anchor integrated liner 10, a gap, thatis, a hollow 30 is formed between the blind hole 20 of the liner part 14and the screw part 18 of the anchor shaft part 12. Therefore, as shownin (5), a filler such as cement milk or a resin material is injectedinto the hollow 30 from one of the filling holes 26 (26 a, 26 b) of theliner part 14. After the hollow is closed up by the injected filler andthe filler is solidified, the anchor bolts are fully tightened to fixthe base plate 120 on the mounting surface of the liner parts 14. Then,as shown in (6), grout (concrete) 140 is filled between the concretefoundation 110 and the base plate 120 to fix the base plate 120. In thismanner, the hollow 30 which is formed in the blind hole 20 of the linerpart 14 at the time of the position adjustment by the screwing of theliner part 14 and the anchor shaft part 12 of the anchor integratedliner 10 can be closed up by the filler injected from the filling hole26 provided in the side surface of the liner part 14, so that the spreadof the vibration or noise due to the operation of the machine 100 can beprevented. Further, the liner part 14 is fixed when the filler injectedin the blind hole 20 of the liner part 14 is solidified, so that thedisplacement due to the screwing of the screw part 18 and the blind hole20 can be prevented.

Hitherto, the method of fixing the shaft of the anchor shaft partinserted in the insertion hole of the concrete foundation is describedby using the metal expansion anchor (female screw type) for thepost-construction anchor, but the method of fixing the shaft in theconcrete foundation is not limited to this and may be a method using anadhesive or the like. Further, it has been conventionally difficult toconstruct the combination of the flat liner and the taper liner indirections other than the vertical direction. However, the anchorintegrated liner of the present invention can be attached not only inthe vertical direction but also in all the directions (horizontaldirection, slanted direction, and the like).

Next, modification examples of the anchor integrated liner will bedescribed. FIGS. 6, 7 are explanatory views of a modification example 1of the anchor integrated liner according to the embodiment. FIG. 6 showsa side view and FIG. 7 is a view seen in the direction of the B-B arrow.As shown in the drawings, in the anchor integrated liner 101 of themodification example 1, a screw part 181 of an anchor shaft part 12 isformed long and the screw part 181 is partly thread-milled. Further, aliner part 141 has recessions 32 in a crosswise direction of itshorizontal cross section, and among them, a pair of the recessions 32penetrate through a liner side surface and a blind hole to also serve asfilling holes 26 for a filler. This structure is applicable to a casewhere grout between a concrete foundation and a base plate is long.Further, the liner part 141 can be rotated by the use of bar membersfitted in the recessions 32 of the liner part 141.

FIGS. 8 to 10 are explanatory views of a modification example 2 of theanchor integrated liner according to the embodiment. FIG. 8 shows a sideview of the modification example 2 of the anchor integrated liner, FIG.9 shows a view seen in the direction of the C-C arrow in FIG. 8, andFIG. 10 shows a cross-sectional view of the modification example 2 ofthe anchor integrated liner. As shown in the drawings, in the anchorintegrated liner 102 of the modification example 2, a center axis of ascrew part 182 of an anchor shaft part 122 and a blind hole 20 of aliner part 14 and a center axis of the shaft 162 are eccentric to eachother by X1. Consequently, even when some obstacle such as areinforcement exists in a concrete foundation in which the anchor shaftpart 122 of the anchor integrated liner 102 is inserted, it is possibleto embed the shaft 162 of the anchor shaft part 122 in a position sothat the shaft 162 can keep clear of the obstacle, without cutting thereinforcement. The liner part 14 has the same structure and have thesame operation and effects as those of the liner part 14 shown in FIGS.1 to 3, and therefore description thereof will be omitted.

FIGS. 11 to 13 are explanatory views of a modification example 3 of theanchor integrated liner according to the embodiment. FIG. 11 shows aside view of the modification example 3 of the anchor integrated liner,FIG. 12 shows a view seen in the direction of the arrow D-D in FIG. 11,and FIG. 13 shows a cross-sectional view of the modification example 3of the anchor integrated liner. As shown in the drawings, the anchorintegrated liner 103 of the modification example 3 has a coupling member34 provided between a screw part 183 and shafts 163 of an anchor shaftpart 123. The coupling member 34 is a rectangular or circular plate, andit has, in its center, the screw part 183 screwed to a blind hole 20 ofa liner part 14 and has, on its both ends, the two shafts 163sandwiching the screw part 183. The center axes of the two shafts 163are both eccentric from the center axis of the blind hole 20 of theliner part 14 and the screw part 163 of the anchor shaft part 123 by X2.Consequently, even when an obstacle such as a reinforcement exists in aconcrete foundation in which the anchor shaft part 123 of the anchorintegrated liner 103 is inserted, the shafts 163 of the anchor shaftpart 123 can be embedded in positions so as to be capable of keepingclear of the obstacle, without cutting the reinforcement. Incidentally,the number of the anchor shaft parts is not limited to two but may beany plural number equal to at least two or more depending on the size ofthe coupling member. Consequently, the anchor integrated liner can bestably fixed in the concrete foundation. When the number of the shaftsis two or more, an adhesive is preferably used for fixing the shafts163. The liner part 14 has the same structure and the same operation andeffects as those of the liner part 14 shown in FIGS. 1 to 3, andtherefore description thereof will be omitted. FIGS. 14, 15 areexplanatory views of a modification example 4 of the anchor integratedliner according to the embodiment. FIG. 14 shows a side view of themodification example 4 of the anchor integrated liner, and FIG. 15 showsa view seen in the direction of the arrow E-E in FIG. 14. As shown inthe drawings, a liner part 144 of the anchor integrated liner 104 of themodification example 4 has a hexagonal horizontal cross section. Whenthe projections are formed in the cylindrical liner part, theprojections become obstacles in a narrow liner installation place andthe liner part cannot be sometimes rotated. Further, when the recessionsare provided in the liner part, a special jig is necessary to rotate theliner part. Therefore, the liner part 144 is formed to have a horizontalcross section in a polygonal shape such as a hexagonal shape or aquadrangular shape, whereby the liner part 144 can be rotated even whenthe installation place is narrow. Further, a filling hole 26 for afiller is formed at least in one place or more of a side surface of theliner part 144.

FIGS. 16 to 18 are explanatory views of a modification example 5 of theanchor integrated liner according to the embodiment. FIG. 16 shows aside view of the modification example 5 of the anchor integrated liner,and FIG. 17 is a cross-sectional view taken along the F-F line in FIG.16. FIG. 18 is a side view of liner parts according to the modificationexample 5. As shown in FIG. 16, the liner part 145 of the anchorintegrated liner 105 of the modification example 5 has a polygonalhorizontal cross section and includes a plate 36 on a base platemounting surface. Here, when the base plate is placed on the liner part145, pressure on a pressure receiving surface of the liner part ispreferably smaller in order to lighten a burden to the liner part due toa load. That is, a contact area between the liner part and the baseplate is preferably wider. On the other hand, a screw diameter of ablind hole of the liner part only has to have a size large enough toendure the strength. Therefore, by making the diameter of the platelarger than the diameter of the liner part, it is possible to increasethe contact area of the liner part without increasing the screw diameterof the liner part. Further, a filling hole 26 for a filler is formed atleast in one place or more of a side surface of the liner part 145.Further, as shown in FIG. 18, a liner part (projections) 145 a or aliner part (recessions) 145 b is in a cylindrical shape through which ascrew hole screwed to a screw part of an anchor shaft part penetrates,and includes the plate 36 on one opening on the base plate mountingsurface side. The shape of the plate 36 is preferably circular orpolygonal.

FIGS. 19, 20 are explanatory views of a modification example 6 of theanchor integrated liner according to the embodiment. As shown in FIG.19, a surface of a shaft 166 a of an anchor shaft part 126 a is roughedlike a rough-surface reinforcement. This increases a surface area of theshaft 166 a and can increase its adhesiveness to an adhesive inserted inan opening of a concrete foundation. Alternatively, as shown in FIG. 20,a shaft 166 b of an anchor shaft part 126 b may have a surface of around bar.

This embodiment describes the construction method of the anchorintegrated liner of a wedge driving type, but an adhesive such as epoxyresin, polyester resin, or cement-based adhesive can be used for theconstruction. Further, this embodiment describes a case where theconcrete foundation is an installation place, but the installation placeis not limited to this but the present invention is applicable to a casewhere the installation place is a concrete floor or wall, or a steelpedestal floor or wall, or the like.

INDUSTRIAL APPLICABILITY

The anchor integrated liner of the present invention is applicable toposition adjustment of a machine and the like installed on a base.

1. An anchor integrated liner comprising: an anchor shaft part which isprovided with a shaft embeddable in a concrete foundation on which abase plate of a machine is installed and with a screw part; and a linerpart which is provided on an end portion of the anchor shaft part toserve as a jig for installing the machine, which is provided with ablind hole having an inside screw screwed to the screw part and with asmooth mounting surface for the base plate, and which is capable ofscrew-adjusting an installation position of the machine by having theblind hole screwed to the screw part, wherein said anchor shaft part andsaid liner part are integrally formed, and wherein a filling hole isprovided at least in one place or more of a side surface of said linerpart, the filling hole being for filling a filler in a hollow which ismade between the blind hole and the screw part at the time of thescrew-adjustment by the blind hole and the screw part.
 2. An anchorintegrated liner comprising: an anchor shaft part which is provided witha shaft embeddable in a concrete foundation on which a base plate of amachine is installed and with a screw part; and a liner part which isprovided on an end portion of the anchor shaft part to serve as a jigfor installing the machine, which is provided with a blind hole havingan inside screw screwed to the screw part and with a smooth mountingsurface for the base plate, and which is capable of screw-adjusting aninstallation position of the machine by having the blind hole screwed tothe screw part, wherein said anchor shaft part and said liner part areintegrally formed, wherein a filling hole is provided at least in oneplace or more of a side surface of said liner part, the filling holebeing for filling a filler in a hollow which is made between the blindhole and the screw part at the time of the screw-adjustment by the blindhole and the screw part, and wherein a center axis of the blind hole andthe screw part and a center axis of the shaft are preferably eccentricto each other.
 3. An anchor integrated liner comprising: an anchor shaftpart which is provided with a shaft embeddable in a concrete foundationon which a base plate of a machine is installed and with a screw part;and a liner part which is provided on an end portion of the anchor shaftpart to serve as a jig for installing the machine, which is providedwith a blind hole having an inside screw screwed to the screw part andwith a smooth mounting surface for the base plate, and which is capableof screw-adjusting an installation position of the machine by having theblind hole screwed to the screw part, wherein said anchor shaft part andsaid liner part are integrally formed, wherein a filling hole isprovided at least in one place or more of a side surface of said linerpart, the filling hole being for filling a filler in a hollow which ismade between the blind hole and the screw part at the time of thescrew-adjustment by the blind hole and the screw part, wherein acoupling member is provided between the screw part and the shaft part insaid anchor shaft part, and wherein the number of the shafts attached tothe coupling member is at least two or more.
 4. The anchor integratedliner according to claim 1, wherein said liner part has a polygonalhorizontal cross section.
 5. The anchor integrated liner according toclaim 1, wherein a plate larger than a horizontal cross-sectional areaof said liner part is attached to a top of said liner part.
 6. A machineinstallation method comprising: forming an insertion hole in a part, ofa concrete foundation, adjacent to an anchor bolt pressing a base plateof a machine; inserting a shaft of an anchor integrated liner into theinsertion hole so as to make a predetermined gap between a lower surfaceof a screw part of the anchor integrated liner and an upper surface ofthe concrete foundation, the anchor integrated liner including: ananchor shaft part provided with the shaft embeddable in the insertionhole and the screw part; and a liner part screwed to the screw part andhaving, on an upper surface, a mounting surface for the machine;horizontally and vertically adjusting the mounting surface; thereafterinjecting a fixing material into the gap to form a fixed layer receivinga load in a liner axial direction; adjusting an installation position byadjusting screwing movement of the liner part; and installing themachine on an upper surface of the base plate.
 7. The anchor integratedliner according to claim 2, wherein said liner part has a polygonalhorizontal cross section.
 8. The anchor integrated liner according toclaim 3, wherein said liner part has a polygonal horizontal crosssection.
 9. The anchor integrated liner according to claim 2, wherein aplate larger than a horizontal cross-sectional area of said liner partis attached to a top of said liner part.
 10. The anchor integrated lineraccording to claim 3, wherein a plate larger than a horizontalcross-sectional area of said liner part is attached to a top of saidliner part.